/**
 *  Licensed to the Apache Software Foundation (ASF) under one
 *  or more contributor license agreements.  See the NOTICE file
 *  distributed with this work for additional information
 *  regarding copyright ownership.  The ASF licenses this file
 *  to you under the Apache License, Version 2.0 (the
 *  "License"); you may not use this file except in compliance
 *  with the License.  You may obtain a copy of the License at
 *
 *    http://www.apache.org/licenses/LICENSE-2.0
 *
 *  Unless required by applicable law or agreed to in writing,
 *  software distributed under the License is distributed on an
 *  "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 *  KIND, either express or implied.  See the License for the
 *  specific language governing permissions and limitations
 *  under the License.
 */
package org.codehaus.groovy.reflection;

import groovy.lang.*;

import org.codehaus.groovy.reflection.GroovyClassValue.ComputeValue;
import org.codehaus.groovy.reflection.stdclasses.*;
import org.codehaus.groovy.util.*;
import org.codehaus.groovy.vmplugin.VMPluginFactory;

import java.lang.ref.PhantomReference;
import java.lang.ref.SoftReference;
import java.lang.ref.WeakReference;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.*;
import java.util.concurrent.atomic.AtomicInteger;

/**
 * Handle for all information we want to keep about the class
 *
 * @author Alex.Tkachman
 */
public class ClassInfo {

    private final LazyCachedClassRef cachedClassRef;
    private final LazyClassLoaderRef artifactClassLoader;
    private final LockableObject lock = new LockableObject();
    public final int hash = -1;
    private final Class klazz;

    private final AtomicInteger version = new AtomicInteger();

    private MetaClass strongMetaClass;
    private ManagedReference<MetaClass> weakMetaClass;
    MetaMethod[] dgmMetaMethods = CachedClass.EMPTY;
    MetaMethod[] newMetaMethods = CachedClass.EMPTY;
    private ManagedConcurrentMap<Object, MetaClass> perInstanceMetaClassMap;
    
    private static final ReferenceBundle softBundle = ReferenceBundle.getSoftBundle();
    private static final ReferenceBundle weakBundle = ReferenceBundle.getWeakBundle();
    
    private static final ManagedLinkedList<ClassInfo> modifiedExpandos = new ManagedLinkedList<ClassInfo>(weakBundle);

    private static final GroovyClassValue<ClassInfo> globalClassValue = GroovyClassValueFactory.createGroovyClassValue(new ComputeValue<ClassInfo>(){
		@Override
		public ClassInfo computeValue(Class<?> type) {
			ClassInfo ret = new ClassInfo(type);
			globalClassSet.add(ret);
			return ret;
		}
	});
    
    private static final GlobalClassSet globalClassSet = new GlobalClassSet();

    ClassInfo(Class klazz) {
    	this.klazz = klazz;
        if (ClassInfo.DebugRef.debug)
          new DebugRef(klazz);
        new ClassInfoCleanup(this);

        cachedClassRef = new LazyCachedClassRef(softBundle, this);
        artifactClassLoader = new LazyClassLoaderRef(softBundle, this);
    }

    public int getVersion() {
        return version.get();
    }

    public void incVersion() {
        version.incrementAndGet();
        VMPluginFactory.getPlugin().invalidateCallSites();
    }

    public ExpandoMetaClass getModifiedExpando() {
        // safe value here to avoid multiple reads with possibly
        // differing values due to concurrency
        MetaClass strongRef = strongMetaClass;
        return strongRef == null ? null : strongRef instanceof ExpandoMetaClass ? (ExpandoMetaClass)strongRef : null;
    }

    public static void clearModifiedExpandos() {
        synchronized(modifiedExpandos){
	        for (Iterator<ClassInfo> it = modifiedExpandos.iterator(); it.hasNext(); ) {
	            ClassInfo info = it.next();
	            it.remove();
	            info.setStrongMetaClass(null);
	        }
	    }
    }

    public CachedClass getCachedClass() {
        return cachedClassRef.get();
    }

    public ClassLoaderForClassArtifacts getArtifactClassLoader() {
        return artifactClassLoader.get();
    }

    public static ClassInfo getClassInfo (Class cls) {
        LocalMap map = getLocalClassInfoMap();
        if (map!=null) return map.get(cls);
        return globalClassValue.get(cls);
    }

    private static LocalMap getLocalClassInfoMap() {
        ThreadLocalMapHandler handler = localMapRef.get();
        SoftReference<LocalMap> ref=null;
        if (handler!=null) ref = handler.get();
        LocalMap map=null;
        if (ref!=null) map = ref.get();
        return map;
    }

    public static Collection<ClassInfo> getAllClassInfo () {
        Collection<ClassInfo> localClassInfos = getAllLocalClassInfo();
        return localClassInfos != null ? localClassInfos : getAllGlobalClassInfo();
    }

    public static void onAllClassInfo(ClassInfoAction action) {
        Collection<ClassInfo> localClassInfos = getAllLocalClassInfo();
        if (localClassInfos!=null) {
            for (ClassInfo localClassInfo : localClassInfos) {
                action.onClassInfo(localClassInfo);
            }
        }
        for (ClassInfo classInfo : getAllGlobalClassInfo()) {
            action.onClassInfo(classInfo);
        }
    }

    private static Collection<ClassInfo> getAllGlobalClassInfo() {
        return globalClassSet.values();
    }

    private static Collection<ClassInfo> getAllLocalClassInfo() {
        LocalMap map = getLocalClassInfoMap();
        if (map!=null) return map.values();
        return globalClassSet.values();
    }

    public MetaClass getStrongMetaClass() {
        return strongMetaClass;
    }

    public void setStrongMetaClass(MetaClass answer) {
        version.incrementAndGet();

        // safe value here to avoid multiple reads with possibly
        // differing values due to concurrency
        MetaClass strongRef = strongMetaClass;
        
        if (strongRef instanceof ExpandoMetaClass) {
          ((ExpandoMetaClass)strongRef).inRegistry = false;
          synchronized(modifiedExpandos){
            for (Iterator<ClassInfo> it = modifiedExpandos.iterator(); it.hasNext(); ) {
              ClassInfo info = it.next();
              if(info == this){
                it.remove();
              }
            }
          }
        }

        strongMetaClass = answer;

        if (answer instanceof ExpandoMetaClass) {
          ((ExpandoMetaClass)answer).inRegistry = true;
          synchronized(modifiedExpandos){
            for (Iterator<ClassInfo> it = modifiedExpandos.iterator(); it.hasNext(); ) {
              ClassInfo info = it.next();
                if(info == this){
                  it.remove();
                }
             }
             modifiedExpandos.add(this);
          }
        }

        replaceWeakMetaClassRef(null);
    }

    public MetaClass getWeakMetaClass() {
        // safe value here to avoid multiple reads with possibly
        // differing values due to concurrency
        ManagedReference<MetaClass> weakRef = weakMetaClass;
        return weakRef == null ? null : weakRef.get();
    }

    public void setWeakMetaClass(MetaClass answer) {
        version.incrementAndGet();

        strongMetaClass = null;
        ManagedReference<MetaClass> newRef = null;
        if (answer != null) {
            newRef = new ManagedReference<MetaClass> (softBundle,answer);
        }
        replaceWeakMetaClassRef(newRef);
    }

    private void replaceWeakMetaClassRef(ManagedReference<MetaClass> newRef) {
        // safe value here to avoid multiple reads with possibly
        // differing values due to concurrency
        ManagedReference<MetaClass> weakRef = weakMetaClass;
        if (weakRef != null) {
            weakRef.clear();
        }
        weakMetaClass = newRef;
    }

    public MetaClass getMetaClassForClass() {
        // safe value here to avoid multiple reads with possibly
        // differing values due to concurrency
        MetaClass strongMc = strongMetaClass;
        if (strongMc!=null) return strongMc;
        MetaClass weakMc = getWeakMetaClass();
        if (isValidWeakMetaClass(weakMc)) {
            return weakMc;
        }
        return null;
    }

    private MetaClass getMetaClassUnderLock() {
        MetaClass answer = getStrongMetaClass();
        if (answer!=null) return answer;
        
        answer = getWeakMetaClass();
        final MetaClassRegistry metaClassRegistry = GroovySystem.getMetaClassRegistry();
        MetaClassRegistry.MetaClassCreationHandle mccHandle = metaClassRegistry.getMetaClassCreationHandler();
        
        if (isValidWeakMetaClass(answer, mccHandle)) {
            return answer;
        }

        answer = mccHandle.create(klazz, metaClassRegistry);
        answer.initialize();

        if (GroovySystem.isKeepJavaMetaClasses()) {
            setStrongMetaClass(answer);
        } else {
            setWeakMetaClass(answer);
        }
        return answer;
    }
    
    private boolean isValidWeakMetaClass(MetaClass metaClass) {
        return isValidWeakMetaClass(metaClass, GroovySystem.getMetaClassRegistry().getMetaClassCreationHandler());
    }

    /**
     * if EMC.enableGlobally() is OFF, return whatever the cached answer is.
     * but if EMC.enableGlobally() is ON and the cached answer is not an EMC, come up with a fresh answer
     */
    private boolean isValidWeakMetaClass(MetaClass metaClass, MetaClassRegistry.MetaClassCreationHandle mccHandle) {
        if(metaClass==null) return false;
        boolean enableGloballyOn = (mccHandle instanceof ExpandoMetaClassCreationHandle);
        boolean cachedAnswerIsEMC = (metaClass instanceof ExpandoMetaClass);
        return (!enableGloballyOn || cachedAnswerIsEMC);
    }

    public final MetaClass getMetaClass() {
        MetaClass answer = getMetaClassForClass();
        if (answer != null) return answer;

        lock();
        try {
            return getMetaClassUnderLock();
        } finally {
            unlock();
        }
    }

    public MetaClass getMetaClass(Object obj) {
        final MetaClass instanceMetaClass = getPerInstanceMetaClass(obj);
        if (instanceMetaClass != null)
            return instanceMetaClass;
        return getMetaClass();
    }

    public static int size () {
        return globalClassSet.size();
    }

    public static int fullSize () {
        return globalClassSet.fullSize();
    }

    private static CachedClass createCachedClass(Class klazz, ClassInfo classInfo) {
        if (klazz == Object.class)
            return new ObjectCachedClass(classInfo);

        if (klazz == String.class)
            return new StringCachedClass(classInfo);

        CachedClass cachedClass;
        if (Number.class.isAssignableFrom(klazz) || klazz.isPrimitive()) {
            if (klazz == Number.class) {
                cachedClass = new NumberCachedClass(klazz, classInfo);
            } else if (klazz == Integer.class || klazz ==  Integer.TYPE) {
                cachedClass = new IntegerCachedClass(klazz, classInfo, klazz==Integer.class);
            } else if (klazz == Double.class || klazz == Double.TYPE) {
                cachedClass = new DoubleCachedClass(klazz, classInfo, klazz==Double.class);
            } else if (klazz == BigDecimal.class) {
                cachedClass = new BigDecimalCachedClass(klazz, classInfo);
            } else if (klazz == Long.class || klazz == Long.TYPE) {
                cachedClass = new LongCachedClass(klazz, classInfo, klazz==Long.class);
            } else if (klazz == Float.class || klazz == Float.TYPE) { 
                cachedClass = new FloatCachedClass(klazz, classInfo, klazz==Float.class);
            } else if (klazz == Short.class || klazz == Short.TYPE) {
                cachedClass = new ShortCachedClass(klazz, classInfo, klazz==Short.class);
            } else if (klazz == Boolean.TYPE) {
                cachedClass = new BooleanCachedClass(klazz, classInfo, false);
            } else if (klazz == Character.TYPE) {
                cachedClass = new CharacterCachedClass(klazz, classInfo, false);
            } else if (klazz == BigInteger.class) {
                cachedClass = new BigIntegerCachedClass(klazz, classInfo);
            } else if (klazz == Byte.class || klazz == Byte.TYPE) {
                cachedClass = new ByteCachedClass(klazz, classInfo, klazz==Byte.class);
            } else {
                cachedClass = new CachedClass(klazz, classInfo);
            }
        } else {
            if (klazz.getName().charAt(0) == '[')
              cachedClass = new ArrayCachedClass(klazz, classInfo);
            else if (klazz == Boolean.class) {
                cachedClass = new BooleanCachedClass(klazz, classInfo, true);
            } else if (klazz == Character.class) {
                cachedClass = new CharacterCachedClass(klazz, classInfo, true);
            } else if (Closure.class.isAssignableFrom(klazz)) {
                cachedClass = new CachedClosureClass (klazz, classInfo);
            } else if (isSAM(klazz)) {
                cachedClass = new CachedSAMClass(klazz, classInfo);
            } else {
                cachedClass = new CachedClass(klazz, classInfo);
            }
        }
        return cachedClass;
    }
    
    private static boolean isSAM(Class<?> c) {
        return CachedSAMClass.getSAMMethod(c) !=null;
    }

    public void lock () {
        lock.lock();
    }

    public void unlock () {
        lock.unlock();
    }

    public MetaClass getPerInstanceMetaClass(Object obj) {
        if (perInstanceMetaClassMap == null)
          return null;

        return perInstanceMetaClassMap.get(obj);
    }

    public void setPerInstanceMetaClass(Object obj, MetaClass metaClass) {
        version.incrementAndGet();

        if (metaClass != null) {
            if (perInstanceMetaClassMap == null)
              perInstanceMetaClassMap = new ManagedConcurrentMap<Object, MetaClass>(ReferenceBundle.getWeakBundle()); 

            perInstanceMetaClassMap.put(obj, metaClass);
        }
        else {
            if (perInstanceMetaClassMap != null) {
              perInstanceMetaClassMap.remove(obj);
            }
        }
    }

    public boolean hasPerInstanceMetaClasses () {
        return perInstanceMetaClassMap != null;
    }

    private static final class LocalMap extends HashMap<Class,ClassInfo> {

        // We use a PhantomReference or a WeakReference for the Thread
        // because the ThreadLocal manages a map with the thread as key.
        // If we make a strong reference to the thread here, then it is 
        // possible, that the map cannot be cleaned. If the number of 
        // threads is not limited, then this map may consume too much memory
        // This reference here is unmanaged (queue==null) because if the map 
        // key gets collected, the reference will too. 
        private final PhantomReference<Thread> myThread = new PhantomReference(Thread.currentThread(),null);

        private LocalMap() {
        }

        public ClassInfo get(Class key) {
            ClassInfo info = super.get(key);
            if (info != null)
              return info;

            return globalClassValue.get(key);
        }

    }

    private static class ThreadLocalMapHandler extends ThreadLocal<SoftReference<LocalMap>> {
        SoftReference<LocalMap> recentThreadMapRef;
        
        protected SoftReference<LocalMap> initialValue() {
            return new SoftReference(new LocalMap(),null);
        }

        public SoftReference<LocalMap> get() {
            SoftReference<LocalMap> mapRef = recentThreadMapRef;
            LocalMap recent = null;
            if (mapRef!=null) recent = mapRef.get();
            // we don't need to handle myThread.get()==null, because in that
            // case the thread has been collected, meaning the entry for the
            // thread is invalid anyway, so it is valid if recent has a 
            // different value. 
            if (recent != null && recent.myThread.get() == Thread.currentThread()) {
                return mapRef;
            } else {
                SoftReference<LocalMap> ref = super.get();
                recentThreadMapRef = ref;
                return ref;
            }
        }
    }
    
    private static final WeakReference<ThreadLocalMapHandler> localMapRef;
    static {
        ThreadLocalMapHandler localMap = new ThreadLocalMapHandler();
        localMapRef = new WeakReference<ThreadLocalMapHandler>(localMap,null);
    }

    private static class LazyCachedClassRef extends LazyReference<CachedClass> {
        private final ClassInfo info;

        LazyCachedClassRef(ReferenceBundle bundle, ClassInfo info) {
            super(bundle);
            this.info = info;
        }

        public CachedClass initValue() {
            return createCachedClass(info.klazz, info);
        }
    }

    private static class LazyClassLoaderRef extends LazyReference<ClassLoaderForClassArtifacts> {
        private final ClassInfo info;

        LazyClassLoaderRef(ReferenceBundle bundle, ClassInfo info) {
            super(bundle);
            this.info = info;
        }

        public ClassLoaderForClassArtifacts initValue() {
            return new ClassLoaderForClassArtifacts(info.klazz);
        }
    }
    
    private static class ClassInfoCleanup extends ManagedReference<ClassInfo> {

        public ClassInfoCleanup(ClassInfo classInfo) {
            super(weakBundle, classInfo);
        }

        public void finalizeRef() {
        	ClassInfo classInfo = get();
        	classInfo.setStrongMetaClass(null);
        	classInfo.cachedClassRef.clear();
        	classInfo.artifactClassLoader.clear();
        }
    }

    private static class DebugRef extends ManagedReference<Class> {
        public static final boolean debug = false;

        private static final AtomicInteger count = new AtomicInteger();

        final String name;

        public DebugRef(Class klazz) {
            super(softBundle, klazz);
            name = klazz == null ? "<null>" : klazz.getName();
            count.incrementAndGet();
        }

        public void finalizeRef() {
            //System.out.println(name + " unloaded " + count.decrementAndGet() + " classes kept");
            super.finalizeReference();
        }
    }
    
    private static class GlobalClassSet {
    	
    	private final ManagedLinkedList<ClassInfo> items = new ManagedLinkedList<ClassInfo>(weakBundle);
    	
    	public int size(){
		return values().size();
    	}
    	
    	public int fullSize(){
		return values().size();
    	}
    	
    	public Collection<ClassInfo> values(){
    		synchronized(items){
    			return Arrays.asList(items.toArray(new ClassInfo[0]));
    		}
    	}
    	
    	public void add(ClassInfo value){
    		synchronized(items){
    			items.add(value);
    		}
    	}

    }

    public static interface ClassInfoAction {
        void onClassInfo(ClassInfo classInfo);
    }
}
